News by Subject Chemistry & Physics

Public Release: 26-May-2017

Bioelectricity new weapon to fight dangerous infection

Changing natural electrical signaling in non-neural cells improves innate immune response to bacterial infections and injury. Tadpoles that received therapeutics, including those used in humans for other purposes, which depolarized their cells had higher survival rates when infected with E. coli than controls. The research has applications for treatment of emerging diseases and traumatic injury in humans.

Journal: npj Regenerative Medicine
Funder: Defense Advanced Research Projects Agency, G. Harold and Leila Y. Mathers Charitable Foundation, W. M. Keck Foundation, Paul G. Allen Frontiers Group

Public Release: 25-May-2017

Solving the riddle of the snow globe

American Friends of Tel Aviv University

A new Tel Aviv University study finds the sedimentation of asymmetric objects in liquid is very different from that of symmetrical objects like spheres. The research may have practical applications in improving water treatment and industrial processes.

Journal: Physical Review Letters

Public Release: 24-May-2017

Neutrons provide the first nanoscale look at a living cell membrane

DOE/Oak Ridge National Laboratory

A research team from the Department of Energy's Oak Ridge National Laboratory has performed the first-ever direct nanoscale examination of a living cell membrane. In doing so, it also resolved a long-standing debate by identifying tiny groupings of lipid molecules that are likely key to the cell's functioning.

Journal: PLOS Biology
Funder: DOE/Oak Ridge National Laboratory, US Department of Energy, DOE/Office of Science

Public Release: 24-May-2017

Shedding light on how humans walk... with robots

Wyss Institute for Biologically Inspired Engineering at Harvard

Researchers at the Wyss Institute and Spaulding Rehabilitative Hospital have discovered that patients walking in clinical robotic suits do not modify their gait in response to forces that are meant to alter the height of their steps, though they do respond to alterations in step length, providing insight into how the human brain executes walking and improving rehabilitative robot design.

Journal: Science Robotics

Public Release: 23-May-2017

Researchers reveal bioelectric patterns guiding worms' regenerative body plan after injury

Tufts University

Researchers have succeeded in permanently rewriting flatworms' regenerative body shape by resetting their internal bioelectric pattern memory, causing even normal-appearing flatworms to harbor the 'code' to regenerate as two-headed worms.

Journal: Biophysical Journal
Funder: Allen Discovery Center through The Paul G. Allen Frontiers Group, G. Harold and Leila Y. Mathers Charitable Foundation, Templeton World Charity Foundation, National Science Foundation

Public Release: 23-May-2017

Whales only recently evolved into giants when changing ice, oceans concentrated prey

Smithsonian

A team of scientists have traced the evolution of whale size through more than 30 million years of history and found that very large whales appeared along several branches of the family tree about 2 to 3 million years ago. Increasing ice sheets in the Northern Hemisphere during this period likely altered the way whales' food was distributed in the oceans and enhanced the benefits of a large body size, the scientists say.

Journal: Proceedings of the Royal Society B
Funder: Smithsonian's Remington Kellogg Fund, The Basis Foundation

Public Release: 22-May-2017

Total synthesis of flueggenine C via an accelerated intermolecular Rauhut-Currier reaction

The Korea Advanced Institute of Science and Technology (KAIST)

The first total synthesis of dimeric securinega alkaloid (-)-flueggenine C was completed via an accelerated intermolecular Rauhut-Currier (RC) reaction. The research team led by Professor Sunkyu Han in the Department of Chemistry succeeded in synthesizing the natural product by reinventing the conventional RC reaction.

Journal: Journal of the American Chemical Society
Funder: National Research Foundation of Korea, Institute for Basic Science

Public Release: 22-May-2017

Biofilm discovery suggests new way to prevent dangerous infections

University of Texas at Austin

By some estimates, more than 1 million people contract infections from medical devices in US hospitals each year, many of which are due to biofilms. A new study suggests a possible new way to prevent such biofilms from forming, which would sharply reduce incidents of related hospital-borne infection.

Journal: Proceedings of the National Academy of Sciences
Funder: The University of Texas at Austin, ExxonMobil

Public Release: 20-May-2017

Luminous bacteria will help to measure radioactivity

Siberian Federal University

Siberian biophysicists have conducted a research concerning a biological effect of low-dose gamma radiation. The results have been published in the Journal of Environmental Radioactivity, one of the leading scientific journals in the world among those dedicated to the issues of environmental radioactivity.

Journal: Journal of Environmental Radioactivity

Public Release: 19-May-2017

Scientists investigate how the sense of smell works in bacteria

Moscow Institute of Physics and Technology

Biophysicists have proposed a universal mechanism for the 'sense of smell' in bacteria. This was done by obtaining the structure of the NarQ protein from Escherichia coli (E. coli). The paper published in Science will help us understand how bacteria 'communicate' with one another and form biofilms on sterile surfaces or inside the human body. Drugs which affect bacteria's 'sense of smell' could potentially be used as substitutes for modern antibiotics.

Journal: Science
Funder: ERA.Net RUS PLUS, Ministry of Education and Science of the Russian Federation

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